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Effect of dietary protein degradability on net fluxes of free and peptide amino acids across the portal-drained viscera of steers

Published online by Cambridge University Press:  23 January 2002

XING-TAI HAN
Affiliation:
Institute of Animal Science, Qinghai Academy of Animal and Veterinary Sciences, Xining, 810003, Qinghai, China
BAI XUE
Affiliation:
Institute of Animal Science, Qinghai Academy of Animal and Veterinary Sciences, Xining, 810003, Qinghai, China
LING-HAO HU
Affiliation:
Qinghai Committee of Science and Technology, Xining, 810000, Qinghai, China
JI-ZENG DU
Affiliation:
Department of Biology, Zhejiang University, Hangzhou, 310027, Zhejiang, China

Abstract

Four steers, average body weight 260±15 kg, fitted with portal catheters were used in a 4×4 Latin Square design to evaluate the influence of dietary protein degradability in the rumen on peptide and amino acid fluxes across the gastrointestinal tract. Dietary protein degradability was regulated by using different protein sources and the diets were calculated to contain 130 g CP/kg and 9·62 MJ ME per kg DM. Plasma concentrations of amino acids were analysed before and after acid hydrolysis of samples first subjected to chemical deproteinization and physical ultrafiltration, and peptide amino acids (PAA) were calculated as the difference between total and free amino acids (FAA). Portal blood flow and arterial concentrations of FAA and PAA were not affected by protein degradability or by diet. Venoarterial concentration difference and net portal flux of FAA tended to increase (P < 0·10) with increase of degradable protein intake. Portal-arterial concentration difference (P < 0·05) and net portal flux (P < 0·10) of PAA increased linearly as dietary protein degradability increased. The proportion of PAA in total amino acid (FAA+PAA) net flux was not modified by dietary protein degradability or by diet, and the mean value as a proportion was 0·32. The major PAA absorbed were glutamate, leucine, aspartate and lysine for all diets, accounting in total for 0·50 of PAA flux. The results demonstrate that PAA may contribute significantly to AA flux across the portal-drained viscera (PDV) of steers, and both FAA and PAA net fluxes can be affected by degradable protein intake.

Type
Research Article
Copyright
© 2001 Cambridge University Press

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